Stochiometry Calculator, otherwise known as a stoichiometry softwares, is mainly designed to help students in understanding the properties of the different volumes under a particular level of the cubic coordinate system. The stoichiometry calculator was developed by Dietrich Lohmann in 1978 and was released for public use a few months later. Since then, more people have been using the softwares to aid them in their studies of various subjects such as geometry, calculus, etc. Today, more students are also finding applications for stoichiometry in their projects.

Basically, stoichiometry calculator works with a graphical user interface (GUI) tool which enables one to enter a stochastic, linear, or logarithmic equation into its text box and get back the corresponding data. Once the equation has been entered, the program will automatically solve the equation to give the solution of the chemical equation at hand. The graphical user interface can be made interactive so that one can change some variables of the fixed form of the equation such as reactants, movers, and temperature in ticks or cells. Furthermore, the graphical presentation of the solutions can be zoomed or is customizable so that one can view the solution in different graphical styles. This is done by simply clicking on the graphical representations of the elements in the cells.

There are basically two types of stoichiometry calculators. One uses the well-known graphical models in which the variables are set in fixed cells where reactants and movers are visible. https://viptoolaz.com/cubase-5/ of stoichiometry calculator uses graphical representations of the elements in the equation to calculate the reaction conditions. When you input the required stoichiometry equation, say for instance a = ax*tau' (I+sin(x)), the cell in which the actual value of the variable is entered is automatically drawn with a tick or dot. This shows the actual value of the reactants' tau' in the x-axis and the actual value of the movers' sin(x) in the y-axis.

In order to obtain the results of the stoichiometry equation, one must solve it for the partial differential of the variables. This is done by finding the partition of the partial differential as a function of time t and x. One can also find other solutions involving the intercepts of the variables at different time intervals t and x.

The stoichiometry of a closed system is the exactness of the solutions of a chemical reaction whose total energy is conserved between the starting and end of the system. A partial integral is symbolized by the fraction omega(I) of the system's potential energy being changed into kinetic energy. The term k is the integral of the system's kinetic energy with its potential energy being changed into energy. The numerator of the fraction is referred to as the Helmholtz (H) function, while the denominator of the fraction is called the partial tensile strength of the system. These values are used in mechanical function tables like those found in scientific chemistry books.


In chemistry, the stoichiometric ratio of reagents is used to determine the behavior of various chemical reactions. For instance, in the case of the oxidation of an alloy of iron, the reagents have to be mixed according to the stoichiometry ratios so as to produce the right amount of oxygen gas. There are many other uses for this type of calculator. It can be a very useful tool for students learning about the properties of various chemical compounds, as well as for teachers teaching students about the properties of the various substances and their reaction to each other.